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An Introduction to HFSS: Fundamental Principles, Concepts, and Use
Contents:
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Fundamentals of HFSS The mathematical method used by HFSS The adaptive solution process and itsimportance to HFSS The computational volume and its parts The six general steps in an HFSS simulation The three solution types HFSS Boundaries Boundaries in HFSS and the need for them The available boundaries within HFSS Boundaries Examples – Perfect ElectricConductor Boundaries Examples – Radiation Boundary Boundaries Examples – Perfectly MatchedLayer (PML) Boundaries Examples – Finite Conductivity Boundaries Examples – Layered Impedance Boundaries Examples – Impedance Boundaries Examples – Symmetry Boundaries Examples – Lumped RLC Boundaries Examples – Master/Slave Boundaries Examples – Screening Impedance Boundaries Examples – Perfect H Applyingboundaries HFSS Excitations Excitations in HFSS Excitations Example – Wave Ports Excitations Example – Lumped Ports The difference between lumped ports andwave ports HFSS Solution Setup The solution frequency The Delta S setting The maximum refinement per pass and maximum numberof passes settings The different frequency sweeps The differences between local, remote and DSOsolutions HFSS Modeling GUI Basics The modeling GUI windows The various hotkeys Snapping on to a point Assigning boundaries in the GUI Assigning How do I assign a Driven Modal Solutionexcitations in the GUI Assigning Driven Terminal Solution excitations inthe GUI Assigning and creating materials Creating variables HFSS Post-Processing Plotting S-parameter results Exporting touchstone files Advanced plotting of results Plotting antenna results Plotting field results Creating animations Appendix Additional reading materials | 
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发表于 2012-4-7 05:13:09
